Detection of electric motor short circuits

1 . A method comprising: detecting whether a phase-to-ground short is present in a first winding of a motor by briefly connecting a first phase of electric power to the motor slightly before a voltage zero-crossing by the first phase of electric power; detecting whether a phase-to-ground short is present in a second winding of a motor by briefly connecting a second phase of electric power to the motor slightly before a voltage zero-crossing by the second phase of electric power; and detecting whether a phase-to-ground short is present in a third winding of a motor drive by briefly connecting a third phase of electric power to the motor slightly before a voltage zero-crossing by the third phase of electric power. 2 . The method of claim 1 , comprising: detecting whether a phase-to-phase fault is present by briefly connecting the first phase and the second phase to the motor slightly before a phase-to-phase current zero-crossing; detecting whether a phase-to-phase fault is present by briefly connecting the second phase and the third phase slightly between a phase-to-phase current zero-crossing; and detecting whether a phase-to-phase fault is present by briefly connecting the first phase and the third phase slightly before a phase-to-phase current zero-crossing. 3 . The method of claim 2 , wherein detecting whether a phase-to-phase fault is present comprises: monitoring current that flows when two of the phases are connected to the motor; and determining that a phase-to-phase short is present when the current is rapidly increasing or that a phase-to-phase open circuit is present when the current is zero. 4 . The method of claim 2 , wherein connecting the first phase and the second phase to the motor comprises: pulsing a first switching device closed to connect the first phase to the motor; and pulsing a second switching device close to connect the second phase to the motor. 5 . The method of claim 1 , wherein detecting whether a phase-to-ground short is present comprises: monitoring current that flows when one of the phases of electric power is connected to the motor; and determining that a phase-to-ground short is present when the current is not zero. 6 . The method of claim 1 , wherein connecting the first phase to the motor comprises pulsing a first switching device closed. 7 . The method of claim 1 , wherein connecting the first phase to the electric motor comprises: pulsing a first switching device closed at a first time; and pulsing a second switching device closed at a second time, wherein the first switching device and the second switching device are connected in series. 8 . The method of claim 1 , wherein the first phase is connected to the electric motor a duration between one to two milliseconds, two to three milliseconds, three to four milliseconds, or four to five milliseconds. 9 . A switchgear system, comprising: a first switching device configured to selectively connect and disconnect a first phase of electric power to a first winding of a motor; a second switching device configured to selectively connect and disconnect a second phase of electric power to a second winding of the motor; a third switching device configured to selectively connect and disconnect a third phase of electric power to a third winding of the motor; and a control circuitry configured to: instruct the first switching device to briefly connect the first phase of electric power to the motor to detect whether a phase-to-ground short is present in the first winding; instruct the second switching device to briefly connect the second phase of electric power to the motor to detect whether a phase-to-ground short is present in the second winding; and instruct the third switching device to briefly connect the third phase of electric power to the motor to detect whether a phase-to-ground short is present in the third winding. 10 . The switch gear system of claim 9 , wherein: the first switching device is configured to briefly connect the first phase of electric power to the motor slightly before a voltage zero-crossing by the first phase; the second switching device is configured to briefly connect the second phase of electric power to the motor slightly before a voltage zero-crossing by the second phase; and the third switching device is configured to briefly connect the third phase of electric power to the motor slightly before a voltage zero-crossing by the third phase. 11 . The switchgear system of claim 9 , wherein the control circuitry is configured to: instruct the first and second switching device to briefly connect the first and second phases of electric power to detect whether a first phase-to-phase fault is present in the motor; instruct the first and third switching device to briefly connect the first and third phases of electric power to detect whether a second phase-to-phase fault is present in the motor; and instruct the second and third switching device to briefly connect the second and third phases of electric power to detect whether a third phase-to-phase fault is present in the motor. 12 . The switchgear system of claim 11 , wherein: the first and second switching devices are configured to connect electric power to the motor slightly before a phase-to-phase current zero-crossing between the first and second phases; the first and third switching devices are configured to connect electric power to the motor slightly before a phase-to-phase current zero-crossing between the first and third phases; and the second and third switching devices are configured to connect electric power to the motor slightly before a phase-to-phase current zero-crossing between the second and third phases. 13 . The switchgear system of claim 11 , wherein the first, second, and third switching devices are single pole, single current carrying path switching devices. 14 . The switchgear system of claim 9 , wherein the control circuitry is configured to instruct the first, second, and third switching devices to connect electric power to the motor when a fault is not detected in the motor. 15 . The switchgear system of claim 14 , wherein the control circuitry is configured to: instruct the first and third switching devices to connect electric power to the motor at a phase-to-phase current zero-crossing between the first and third phases; and subsequently instruct the second switching device to connect the second phase of electric power to the motor. 16 . A switchgear system, comprising: a first switching device; and a second switching device coupled in series with the first switching device, wherein the first and second switching devices are configured to briefly supply a first phase of electric power to a first winding of a motor by: closing the first switching device at a first time; closing the second switching device at a second time; opening the first switching device at a third time; and opening the second switching device at a fourth time such that the first phase of electric power is supplied to the first winding between the second time and the third time to determine whether fault is present in the motor. 17 . The switchgear system of claim 16 , wherein between the second time and the third time is slightly before a voltage zero-crossing by the first phase. 18 . The switchgear system of claim 17 , wherein supplying the first phase of electric power between the second time and the third time is used to detect whether a phase-to-ground short is present in the first winding. 19 . The switch